CN212788210U

CN212788210U - Foldable smart house

Info

Publication number: CN212788210U
Application number: CN202021035074.6U
Authority: CN
Inventors: 胡学文
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-08
Filing date: 2020-06-08
Publication date: 2021-03-26
Anticipated expiration: 2030-06-08

Abstract

The utility model relates to the technical field of sacrifice articles, and provides a foldable smart house, which comprises a cube framework spliced by a plurality of horizontal connecting strips and a plurality of vertical connecting strips, and also comprises splicing structures arranged at eight edges of the cube framework, wherein each splicing structure comprises two horizontal connecting parts for respectively installing two adjacent horizontal connecting strips and a vertical connecting part capable of being bent along the vertical central line of the connecting part, and the vertical connecting strip adjacent to the horizontal connecting strip is installed on the vertical connecting part; each horizontal connecting part is provided with a first sleeve for the horizontal connecting strip to be inserted and locked, and each vertical connecting part is provided with a second sleeve for the vertical connecting strip to be inserted and locked. The utility model discloses a mosaic structure of setting in eight edges and corners of cube skeleton can splice these connecting strips, and through the characteristic of can buckling of vertical connecting portion when folding, fold moreover, reduce its volume, the transportation of being convenient for.

Description

Foldable smart house

Technical Field

The utility model relates to an sacrificial rites articles for use technical field specifically is a collapsible spirit room.

Background

The smart house is a sacrifice article used in folk funeral and interment, most of the existing smart houses adopt bamboo strips which are manually bundled into a house frame structure, and are bound through ropes, belts, iron wires and the like, and then the drawing paper of the smart house is bonded on the house frame. The existing smart house has large volume, is inconvenient to transport and is easy to be damaged in the transportation process. In addition, the pasting of the drawing paper requires people to paste the drawing paper by using adhesive tapes or glue, and sometimes the drawing paper is forgotten to be taken, which brings unnecessary troubles.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a collapsible smart room can solve partial defect among the prior art at least.

In order to achieve the above object, the embodiment of the present invention provides the following technical solutions: a foldable smart house comprises a cubic framework formed by splicing a plurality of horizontal connecting strips and a plurality of vertical connecting strips, and splicing structures arranged at eight edges of the cubic framework, wherein each splicing structure comprises two horizontal connecting parts for respectively mounting two adjacent horizontal connecting strips and a vertical connecting part capable of being bent along a vertical central line of the horizontal connecting strip, and the vertical connecting strips adjacent to the horizontal connecting strips are mounted on the vertical connecting parts; each horizontal connecting part is provided with a first sleeve for inserting and locking the horizontal connecting strip, and each vertical connecting part is provided with a second sleeve for inserting and locking the vertical connecting strip.

Further, the first sleeve and the second sleeve respectively comprise a cylindrical body with an inner cavity, an opening formed in the cylindrical body and a locking rib formed in the cylindrical body, and the horizontal connecting strip and the vertical connecting strip are provided with hooks which can be inserted into the inner cavity of the cylindrical body and hung on the locking rib.

Further, the hook is of an annular structure, the annular structure is provided with a gap for the locking rib to be clamped in, and the width of the horizontal connecting strip and the width of the vertical connecting strip are both smaller than the width of the gap.

Further, the width of the horizontal connecting strips and the width of the vertical connecting strips are both smaller than the size in the ring of the ring-shaped structure.

Furthermore, the vertical connecting part is of a two-section structure, a bending piece is arranged along the vertical central line of the vertical connecting part, and the two sections of the vertical connecting part are connected through the bending piece.

Furthermore, the bending piece comprises a plurality of elastic rubbers, each elastic rubber is sequentially arranged at intervals along the vertical central line of the vertical connecting portion, and two sections of the vertical connecting portion are respectively connected to two ends of each elastic rubber.

Furthermore, the utility model also comprises a drawing paper which is arranged on each surface of the cubic framework.

Furthermore, the drawing paper is locked on the splicing structure through a locking component arranged on the splicing structure.

Further, the locking assembly comprises a T-shaped rod and a tooth arranged on one section of the T-shaped rod, the other section of the T-shaped rod is telescopically and vertically arranged on the splicing structure, and the tooth is opposite to the splicing structure.

Compared with the prior art, the beneficial effects of the utility model are that:

1. through the mosaic structure who sets up at eight edges and corners of cube skeleton, can splice these connecting strips, through the characteristic of can buckling of vertical connecting portion when folding moreover, fold, reduce its volume, the transportation of being convenient for.

2. Can lock the drawing paper on mosaic structure through the hasp subassembly, need not look for glue in addition again and paste, facilitate for the consumer.

Drawings

Fig. 1 is a schematic view of a foldable smart house provided by an embodiment of the present invention without installation of drawing paper;

fig. 2 is a schematic view of a first viewing angle of a splicing structure of a foldable smart house according to an embodiment of the present invention;

fig. 3 is a schematic view (perspective) of a second viewing angle of the splicing structure of the foldable smart house according to the embodiment of the present invention;

fig. 4 is a schematic view of a lock catch assembly of a foldable smart house according to an embodiment of the present invention;

in the reference symbols: 1-cubic framework; 10-horizontal connecting strips; 11-vertical connecting strips; 2-a splicing structure; 20-a horizontal connection; 21-a vertical connection; 22-an opening; 23-locking edge; 24-a bending piece; 3-a latch assembly; a 30-T shaped rod; 31-biting teeth.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Referring to fig. 1, 2 and 3, an embodiment of the present invention provides a foldable smart house, including a cube framework 1 spliced by a plurality of horizontal connecting strips 10 and a plurality of vertical connecting strips 11, and a splicing structure 2 disposed at eight edges of the cube framework 1, where each splicing structure 2 includes two horizontal connecting portions 20 for two adjacent horizontal connecting strips 10 to be respectively installed, and a vertical connecting portion 21 capable of being bent along a vertical central line thereof, and the vertical connecting strips 11 adjacent to the horizontal connecting strips 10 are installed on the vertical connecting portions 21; each of the horizontal connecting portions 20 has a first sleeve into which the horizontal connecting bar 10 is inserted and locked, and each of the vertical connecting portions 21 has a second sleeve into which the vertical connecting bar 11 is inserted and locked. The two horizontal connecting portions 20 are symmetrically arranged with the vertical connecting portion 21 as a symmetry axis. The whole shape of the smart house is a cube or a cuboid, and after the smart house is supported, the whole smart house product can be formed by installing drawing paper on six surfaces of the cube framework 1. When a lot of merchants are in stock, the stocks are in bulk, and the smart house has a large volume, so that the products can be damaged if the stocks are directly transported. Therefore, in the embodiment, by arranging the splicing structures 2 at eight corners of the cubic framework 1, one of the purposes of the splicing structure 2 is to splice the connecting strips, which are defined as horizontal connecting strips 10 and vertical connecting strips 11, wherein, the horizontal connecting strips 10 have eight in total, the vertical connecting strips 11 can have four or eight, when eight, namely, two vertical connecting strips 11 are arranged in parallel to form a whole, eight vertical connecting strips 11 are arranged on four whole bodies, the two vertical connecting strips 11 arranged in parallel can be respectively inserted into two sections of the vertical connecting part 21, if four, each vertical connection 11 is set to be in a bending form similar to that of the vertical connection part 21, and the end part of the vertical connection 11 is cut off to leave two sections with two end parts respectively inserted into the vertical connection part 21. Each splicing structure 2 can be connected with one vertical connecting strip 11 and two horizontal connecting strips 10. The connecting strips can be made of bamboo or plastic, and are long strips, columns or sheets. When the connecting strips are installed, the connecting strips are inserted into the sleeves of the corresponding connecting parts, and then the sleeves are locked to complete assembling. And because the vertical connecting part 21 can be bent to 90 degrees and can also be completely flattened, as shown in fig. 2, namely the vertical connecting part 21 and the two horizontal connecting parts 20 are positioned on the same plane, after the cube framework is assembled, the cube framework 1 is bent, namely, one opposite edge angle of the cube is pressed, so that the structure is changed from a square shape to a diamond shape, and then the pressing is continued, and finally, the cube framework 1 forms a structure close to the plane, so that the packaging and the transportation are easier. Preferably, the vertical connecting strips 11 may be of a telescopic structure, such as a telescopic sleeve, as in the form of a fishing rod, or two segments of vertical connecting strips 11 that are overlapped, and the length of the vertical connecting strips 11 is adjusted by staggering the two segments, so that the length of the vertical connecting strips 11 can be shortened and then folded when the fishing rod is folded, and the size of the folded fishing rod is smaller.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 1, fig. 2 and fig. 3, the first sleeve and the second sleeve include a cylindrical body having an inner cavity, an opening 22 disposed on the cylindrical body, and a locking rib 23 disposed on the cylindrical body, and the horizontal connecting strip 10 and the vertical connecting strip 11 both have hooks which can be inserted into the inner cavity of the cylindrical body and hung on the locking rib 23. In this embodiment, the horizontal connecting strip 10 and the vertical connecting strip 11 may be formed into a hook on the strip body during processing or the hook may be mounted on the strip body, and the hook may extend into the inner cavity of the cylindrical body along with the strip body from the opening 22 and then be hung on the locking rib 23, so that the assembly may be completed. Preferably, the hook is of an annular structure, the annular structure is provided with a gap for the locking rib 23 to be clamped in, the width of the horizontal connecting strip 10 and the width of the vertical connecting strip 11 are both smaller than the width of the gap, and the width of the horizontal connecting strip 10 and the width of the vertical connecting strip 11 are both smaller than the size in the ring of the annular structure. By setting the size, the locking edge 23 is not easy to separate after entering the hook, but can freely rotate in the space of the hook, so that the hook can be folded and supported conveniently.

As an optimized solution of the embodiment of the present invention, please refer to fig. 1, fig. 2 and fig. 3, the vertical connecting portion 21 has a two-section structure, a bending member 24 is installed along a vertical center line of the vertical connecting portion 21, and the two sections of the vertical connecting portion 21 are connected through the bending member 24. Preferably, the bending member 24 includes a plurality of elastic rubbers, each of the elastic rubbers is sequentially disposed at intervals along a vertical center line of the vertical connecting portion 21, and two sections of the vertical connecting portion 21 are respectively connected to two ends of each of the elastic rubbers. In this embodiment, connect and buckle the adoption be elastic rubber, elastic rubber has elasticity, its initial state is length when having formed the cube skeleton 1 after the support, elastic rubber links between two sections vertically this moment, stable state, when folding, there are the elastic rubber of four edges and corners department can be dragged, the state of dragging this moment, consequently, need have certain external force to suppress it a little a bit, the power that exists wherein is very little of course, can not cause the influence to actual use, only need when the design, the length of setting for suitable elastic rubber and selecting for use suitable elastic rubber can according to the length of actual connecting piece. Of course, besides, the bending member may be another existing connecting member, which is not limited in this embodiment.

As an optimization scheme of the embodiment of the present invention, please refer to fig. 4, the smart house further includes drawing paper installed on each side of the cube framework 1. Preferably, the drawing paper is locked on the splicing structure 2 through a locking component 3 arranged on the splicing structure 2. In this embodiment, the mounting of the drawing sheet is no longer in the form of a conventional glue. The lock can be completed by the lock catch assembly 3 carried by the smart house, thereby providing more convenience for consumers. Fig. 4 is a partial view of the central mosaic structure 2.

In order to further optimize the above solution, referring to fig. 4, the locking assembly 3 includes a T-shaped rod 30 and a tooth 31 disposed on one section of the T-shaped rod 30, and another section of the T-shaped rod is telescopically and vertically mounted on the splicing structure 2, and the tooth 31 faces the splicing structure 2. In this embodiment, the locking mode is a pressing mode, the T-shaped section can be extended and retracted by adopting a latch form, that is, the section has a detent, and when the T-shaped section is pressed into the splicing structure 2, the T-shaped section can be snapped into the detent by a snap in the splicing structure 2, so as to limit the free movement of the section, and then the drawing paper is pressed on the splicing structure 2 by the snap-in teeth 31. The T-shaped rod 30 is provided with a clamping section which is perpendicular to the vertical surface, and the teeth 31 are opposite to the vertical surface. Or it may just take the form of a drawing pin pressing the drawing sheet against the mosaic 2. The catch assembly 3 and tack referred to herein are not large in size and therefore do not have to be considered damaging to the splice structure 2, and they all have some common parts and do not add significant cost to the merchant. Preferably, a groove is provided on the splicing structure 2 at a position corresponding to the teeth 31, so that the teeth 31 can snap into the groove to grip the drawing paper.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a collapsible smart room, includes the cube skeleton that can splice into by a plurality of horizontal connecting strip and a plurality of vertical connecting strip, its characterized in that: the splicing structure comprises two horizontal connecting parts and a vertical connecting part, wherein the two horizontal connecting parts are used for respectively mounting two adjacent horizontal connecting strips, the vertical connecting part can be bent along the vertical central line of the vertical connecting part, and the vertical connecting strips adjacent to the horizontal connecting strips are mounted on the vertical connecting parts; each horizontal connecting part is provided with a first sleeve for inserting and locking the horizontal connecting strip, and each vertical connecting part is provided with a second sleeve for inserting and locking the vertical connecting strip.

2. The collapsible smart house of claim 1, wherein: the first sleeve and the second sleeve comprise a cylindrical body with an inner cavity, an opening formed in the cylindrical body and a locking rib formed in the cylindrical body, and the horizontal connecting strip and the vertical connecting strip are provided with hooks which can be inserted into the inner cavity of the cylindrical body and hung on the locking rib.

3. A collapsible smart house as claimed in claim 2, wherein: the hook is of an annular structure, the annular structure is provided with a gap for the locking rib to be clamped in, and the width of the horizontal connecting strip and the width of the vertical connecting strip are both smaller than the width of the gap.

4. A collapsible smart house as claimed in claim 3, wherein: the width of the horizontal connecting strip and the width of the vertical connecting strip are both smaller than the size in the ring of the annular structure.

5. The collapsible smart house of claim 1, wherein: the vertical connecting part is of a two-section structure, a bending piece is arranged along the vertical central line of the vertical connecting part, and the two sections of the vertical connecting part are connected through the bending piece.

6. The collapsible smart house of claim 5, wherein: the bending piece comprises a plurality of elastic rubbers, the elastic rubbers are sequentially arranged at intervals along the vertical center line of the vertical connecting portion, and two sections of the vertical connecting portion are respectively connected to two ends of each elastic rubber.

7. The collapsible smart house of claim 1, wherein: the drawing paper is installed on each face of the cubic framework.

8. The collapsible smart house of claim 7, wherein: the drawing paper is locked on the splicing structure through a locking component arranged on the splicing structure.

9. The collapsible smart house of claim 8, wherein: the lock catch assembly comprises a T-shaped rod and a biting tooth arranged on one section of the T-shaped rod, the other section of the T-shaped rod is telescopically and vertically arranged on the splicing structure, and the biting tooth is opposite to the splicing structure.